JP6786031B1 - Surface treatment device for receivers for satellite signals - Google Patents

Surface treatment device for receivers for satellite signals Download PDF

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JP6786031B1
JP6786031B1 JP2020030997A JP2020030997A JP6786031B1 JP 6786031 B1 JP6786031 B1 JP 6786031B1 JP 2020030997 A JP2020030997 A JP 2020030997A JP 2020030997 A JP2020030997 A JP 2020030997A JP 6786031 B1 JP6786031 B1 JP 6786031B1
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plate
end surface
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parabolic antenna
slider
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JP2021078099A (en
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袁新芳
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杭州力松電子科技有限公司
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B27/00Other grinding machines or devices
    • B24B27/033Other grinding machines or devices for grinding a surface for cleaning purposes, e.g. for descaling or for grinding off flaws in the surface
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B13/00Machines or plants for applying liquids or other fluent materials to surfaces of objects or other work by spraying, not covered by groups B05B1/00 - B05B11/00
    • B05B13/02Means for supporting work; Arrangement or mounting of spray heads; Adaptation or arrangement of means for feeding work
    • B05B13/0278Arrangement or mounting of spray heads
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B41/00Component parts such as frames, beds, carriages, headstocks
    • B24B41/04Headstocks; Working-spindles; Features relating thereto
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B41/00Component parts such as frames, beds, carriages, headstocks
    • B24B41/06Work supports, e.g. adjustable steadies
    • B24B41/061Work supports, e.g. adjustable steadies axially supporting turning workpieces, e.g. magnetically, pneumatically
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B47/00Drives or gearings; Equipment therefor
    • B24B47/10Drives or gearings; Equipment therefor for rotating or reciprocating working-spindles carrying grinding wheels or workpieces
    • B24B47/12Drives or gearings; Equipment therefor for rotating or reciprocating working-spindles carrying grinding wheels or workpieces by mechanical gearing or electric power
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B47/00Drives or gearings; Equipment therefor
    • B24B47/22Equipment for exact control of the position of the grinding tool or work at the start of the grinding operation
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B49/00Measuring or gauging equipment for controlling the feed movement of the grinding tool or work; Arrangements of indicating or measuring equipment, e.g. for indicating the start of the grinding operation
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B55/00Safety devices for grinding or polishing machines; Accessories fitted to grinding or polishing machines for keeping tools or parts of the machine in good working condition
    • B24B55/06Dust extraction equipment on grinding or polishing machines

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
  • Application Of Or Painting With Fluid Materials (AREA)
  • Aerials With Secondary Devices (AREA)

Abstract

【課題】本発明は衛星信号に対する受信機の表面処理装置を開示した。【解決手段】本願に記載の衛星信号に対する受信機の表面処理装置は、主支持板を含み、前記主支持板の右端面には切替軸が回転可能に設置され、前記切替軸の上端面には回転モータが固定的に設置され、前記回転モータの上端には回転軸が伝動可能に連結され、前記回転軸の上端には支持機構が設置され、本願発明はパラボラアンテナにサンドペーパーで研磨を行い、研磨が終わると自動的に塗料を噴きつけることで、パラボラアンテナの表面が処理され、人力による処理と比べて効率が向上し、また、本願発明は調整せずにサイズが異なるパラボラアンテナに適応でき、即ち本願発明は適応範囲が広く、大量のパラボラアンテナに対して処理を行える。【選択図】図1PROBLEM TO BE SOLVED: To disclose a surface treatment device for a receiver for a satellite signal. A surface treatment device for a receiver for a satellite signal described in the present application includes a main support plate, and a switching shaft is rotatably installed on the right end surface of the main support plate, and on the upper end surface of the switching shaft. A rotary motor is fixedly installed, a rotary shaft is movably connected to the upper end of the rotary motor, a support mechanism is installed at the upper end of the rotary shaft, and the present invention is to polish a parabolic antenna with sandpaper. The surface of the parabolic antenna is treated by automatically spraying the paint after polishing, and the efficiency is improved as compared with the manual treatment. In addition, the present invention is used for parabolic antennas of different sizes without adjustment. It can be applied, that is, the present invention has a wide range of application and can process a large number of parabolic antennas. [Selection diagram] Fig. 1

Description

本願発明は衛星信号に対する受信機技術分野に関し、具体的には衛星信号に対する受信機の表面処理装置である。 The present invention relates to the technical field of a receiver for a satellite signal, and specifically, is a surface treatment device for a receiver for a satellite signal.

地上で衛星信号を受信するには、通常、パラボラアンテナが使用される。パラボラアンテナは、放物曲面をした反射器を持つ凹型アンテナである。パラボラアンテナは屋外で長時間使用されると、雨水や空気、日差しにより、反射器の表面の塗料が徐々に落ち、そして反射器が錆び、錆びがアンテナの表面に影響を与え、集束効果を低下させ、受け取った衛星信号も弱くなり、パラボラアンテナに対する錆落としは一般的に人力で行われ、時間と労力とを費やすほか、効率も低く、また、数多くのパラボラアンテナを処理すると、人力による処理はコストが高く、よって、上記の問題を解決するために、本願発明を衛星信号に対する受信機の表面処理装置を提供した。 A parabolic antenna is typically used to receive satellite signals on the ground. A parabolic antenna is a concave antenna with a parabolic curved reflector. When the parabolic antenna is used outdoors for a long time, rainwater, air, and sunlight gradually remove the paint on the surface of the reflector, and the reflector rusts, and the rust affects the surface of the antenna, reducing the focusing effect. The satellite signal received is also weakened, and the rust removal for the parabolic antenna is generally done manually, which is time-consuming and labor-intensive, inefficient, and when many parabolic antennas are processed, the processing by human power is performed. The cost is high, and therefore, in order to solve the above problems, the present invention provides a surface treatment device for a receiver for satellite signals.

中国特許出願公開第107498411号明細書Chinese Patent Application Publication No. 107488411

本願は衛星信号に対する受信機の表面処理装置を提供し、上記の問題を解決することを目的とする。 The present application provides a surface treatment device for a receiver for satellite signals, and an object of the present application is to solve the above problems.

本願発明は以下の技術プランにより実現される。 The present invention is realized by the following technical plan.

本願に記載の衛星信号に対する受信機の表面処理装置は、主支持板を含み、前記主支持板の右端面には切替軸が回転可能に設置され、前記切替軸の上端面には回転モータが固定的に設置され、前記回転モータの上端には回転軸が伝動可能に連結され、前記回転軸の上端には支持機構が設置され、表面処理を行う前にパラボラアンテナを前記支持機構により固定し且つ前記パラボラアンテナの開口を上方に向かせ、
前記パラボラアンテナの上側には研磨機構が設置され、前記研磨機構は構成板を含み、前記構成板の下端面には柔軟性カバーが固定的に連結され、前記柔軟性カバーと前記構成板との間に空気入れ空間が形成され、前記柔軟性カバーの下表面にはサンドペーパーが取り外し可能に装着され、前記構成板の上側にはエアポンプが設置され、前記エアポンプは連結管により前記空気入れ空間と連通しており、前記連結管の中には逆止弁が設置され、前記構成板の中には空気抜きバルブが設置され、前記構成板は下降すると前記サンドペーパーを前記パラボラアンテナに密着させ、前記エアポンプは作動すると前記空気入れ空間の中に空気を入れ、前記サンドペーパーを前記パラボラアンテナにさらに密着させ、前記空気入れ空間の中の空気が指定気圧に至ると前記エアポンプを止め、即ち前記サンドペーパーを異なるサイズの前記パラボラアンテナの表面に密着させられ、前記回転モータを作動させることで前記パラボラアンテナが回転して研磨され、
前記主支持板の右端面には前記切替軸の下側に位置する下支持板が固定的に設置され、前記下支持板の前端面には電動レールが固定的に設置され、前記電動レールの前側には運動板が装着され、前記運動板の上端面には風吹出口と塗料噴きつけ口とが設置され、前記風吹出口が前記塗料噴きつけ口の左側に位置し、塗料を噴きつける時に前記運動板が右方から左方へと運動する。 The surface treatment device for the receiver for satellite signals described in the present application includes a main support plate, a switching shaft is rotatably installed on the right end surface of the main support plate, and a rotary motor is mounted on the upper end surface of the switching shaft. It is fixedly installed, a rotating shaft is movably connected to the upper end of the rotating motor, a support mechanism is installed at the upper end of the rotating shaft, and the parabolic antenna is fixed by the support mechanism before surface treatment is performed. And the opening of the parabolic antenna is turned upward,
A polishing mechanism is installed on the upper side of the parabolic antenna, the polishing mechanism includes a constituent plate, and a flexible cover is fixedly connected to the lower end surface of the constituent plate, and the flexible cover and the constituent plate are connected to each other. An air pump space is formed between them, sandpaper is detachably attached to the lower surface of the flexible cover, an air pump is installed on the upper side of the constituent plate, and the air pump is connected to the air pump space by a connecting pipe. A check valve is installed in the connecting pipe, an air pump valve is installed in the constituent plate, and when the constituent plate is lowered, the sandpaper is brought into close contact with the parabolic antenna. When the air pump operates, air is introduced into the inflator space, the sandpaper is further brought into close contact with the parabolic antenna, and when the air in the inflator space reaches a specified pressure, the air pump is stopped, that is, the sandpaper. Is brought into close contact with the surface of the parabola antenna of different sizes, and by operating the rotary motor, the parabola antenna is rotated and polished.
A lower support plate located below the switching shaft is fixedly installed on the right end surface of the main support plate, and an electric rail is fixedly installed on the front end surface of the lower support plate. An exercise plate is attached to the front side, and a wind outlet and a paint spray port are installed on the upper end surface of the exercise plate. The wind outlet is located on the left side of the paint spray port, and when the paint is sprayed, the wind outlet is located. The exercise board moves from right to left.

さらに、前記下支持板の中には前方に開口するスライド空間が二つ設置され、二つの前記スライド空間はそれぞれ前記電動レールの上下側に位置し、上側にある前記スライド空間の中には第一スライダが左右対称になるように且つスライド可能に設置され、下側にある前記スライド空間の中には第二スライダが左右対称になるように且つスライド可能に設置され、前記第二スライダと前記第一スライダとはそれぞれスクリューとねじ山により連結され、前記スクリューが回転すると、前記第二スライダが互いに近寄り、前記第一スライダが互いに近寄り、上側にある前記スクリューが動力モータと伝動可能に連結され、上下の前記スクリューとはプーリにより伝動可能に連結され、前記第一スライダの前端面には上定位板が固定的に設置され、左右の前記上定位板において対向する端面には定位センサーが固定的に設置され、前記パラボラアンテナは回転して開口が下方に向いた後、前記動力モータが作動して左右の前記定位センサーをそれぞれ前記パラボラアンテナの左右両端と当接させ、そして前記定位センサーが前記動力モータを止め、前記パラボラアンテナの直径を計測でき、前記第二スライダの前端面には下定位板が固定的に設置され、前記下定位板の上端面には定位スイッチが固定的に設置され、前記運動板の下端面にはスイッチが固定的に設置され、前記スイッチが右側にある前記定位スイッチと当接した後、前記風吹出口と前記塗料噴きつけ口とが作動し、前記スイッチが左側にある前記定位スイッチと当接した後、前記風吹出口と前記塗料噴きつけ口とが作動を止める。 Further, two slide spaces that open forward are installed in the lower support plate, the two slide spaces are located on the upper and lower sides of the electric rail, respectively, and the slide space on the upper side contains a second slide space. One slider is installed so as to be symmetrical and slidable, and the second slider is installed so as to be symmetrical and slidable in the lower slide space, and the second slider and the said The first slider is connected to each other by a screw and a screw thread, respectively, and when the screw rotates, the second slider approaches each other, the first slider approaches each other, and the screw on the upper side is movably connected to the power motor. , The upper and lower screws are movably connected by a pulley, an upper localization plate is fixedly installed on the front end surface of the first slider, and a localization sensor is fixed on the opposite end faces of the left and right upper localization plates. After the parabolic antenna rotates and the opening faces downward, the power motor operates to bring the left and right localization sensors into contact with the left and right ends of the parabola antenna, respectively, and the localization sensor The power motor can be stopped and the diameter of the parabolic antenna can be measured. The lower localization plate is fixedly installed on the front end surface of the second slider, and the localization switch is fixedly installed on the upper end surface of the lower localization plate. Then, a switch is fixedly installed on the lower end surface of the exercise plate, and after the switch comes into contact with the localization switch on the right side, the wind outlet and the paint spray port are operated, and the switch is activated. After coming into contact with the localization switch on the left side, the wind outlet and the paint spray port stop operating.

さらに、前記主支持板の右端面には右方に開口する案内スライド溝が形成され、前記案内スライド溝の底壁には旋転モータが固定的に設置され、前記旋転モータの上側には親ねじが伝動可能に連結され、前記案内スライド溝の中には案内スライダがスライド可能に設置され、前記案内スライダが前記親ねじとねじ山により連結され、前記案内スライダの右端面には装着板が固定的に設置され、前記構成板は連結棒により前記装着板の下端面と固定的に連結され、前記エアポンプが前記装着板の下端面に固定的に設置されている。 Further, a guide slide groove that opens to the right is formed on the right end surface of the main support plate, a rotation motor is fixedly installed on the bottom wall of the guide slide groove, and a lead screw is screwed on the upper side of the rotation motor. Are movably connected, a guide slider is slidably installed in the guide slide groove, the guide slider is connected to the lead screw by a screw thread, and a mounting plate is fixed to the right end surface of the guide slider. The constituent plate is fixedly connected to the lower end surface of the mounting plate by a connecting rod, and the air pump is fixedly installed on the lower end surface of the mounting plate.

さらに、前記支持機構は前記回転軸の上端に固定的に設置された旋転板を含み、前記旋転板の上端面には載置板が固定的に設置され、前記載置板の中には一つの割れ目があり、割れ目から前記パラボラアンテナを入れられ、割れ目の中には電磁石が設置され、前記パラボラアンテナは開口が上方に向くように割れ目の中に置かれ、前記電磁石が通電して前記パラボラアンテナを吸引することで前記パラボラアンテナを固定できる。 Further, the support mechanism includes a rotating plate fixedly installed at the upper end of the rotating shaft, and a mounting plate is fixedly installed on the upper end surface of the rotating plate, and one of the above-mentioned mounting plates is included. There are two crevices, the parabolic antenna is inserted through the crevice, an electric magnet is installed in the crevice, the parabolic antenna is placed in the crevice so that the opening faces upward, and the electric magnet is energized and the parabolic antenna is energized. The parabolic antenna can be fixed by sucking the antenna.

さらに、前記主支持板の中には切替モータが固定的に設置され、前記切替軸と前記切替モータとが伝動可能に連結されている。 Further, a switching motor is fixedly installed in the main support plate, and the switching shaft and the switching motor are movably connected to each other.

本願発明の有益な効果は:本願発明はパラボラアンテナにサンドペーパーで研磨を行い、研磨が終わると自動的に塗料を噴きつけることで、パラボラアンテナの表面が処理され、人力による処理と比べて効率が向上し、また、本願発明は調整せずにサイズが異なるパラボラアンテナに適応でき、即ち本願発明は適応範囲が広く、大量のパラボラアンテナに対して処理を行える。 The beneficial effect of the present invention is: In the present invention, the surface of the parabolic antenna is treated by sanding the parabolic antenna with sandpaper and automatically spraying the paint after polishing, which is more efficient than the manual treatment. In addition, the present invention can be applied to parabolic antennas of different sizes without adjustment, that is, the present invention has a wide range of application and can process a large number of parabolic antennas.

下記に図1〜4をあわせて本発明について詳しく説明し、便利に説明するために、下記の方向を以下のように規定する:図1は本発明装置の正面図であり、本願に記載の各方向が、図1と同じ向きに装置を見た際の方向である。 In order to explain the present invention in detail with reference to FIGS. 1 to 4 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention and is described in the present application. Each direction is the direction when the device is viewed in the same direction as in FIG.

図1は本願発明の全体構成概略図FIG. 1 is a schematic diagram of the overall configuration of the present invention. 図2は図1におけるA―Aの構成概略図FIG. 2 is a schematic configuration diagram of AA in FIG. 図3は図1におけるB―Bの構成概略図FIG. 3 is a schematic configuration diagram of BB in FIG. 図4は図1におけるC―Cの構成概略図FIG. 4 is a schematic configuration diagram of CC in FIG.

図1〜4を参照し、本願に記載の衛星信号に対する受信機の表面処理装置は、主支持板10を含み、前記主支持板10の右端面には切替軸29が回転可能に設置され、前記切替軸29の上端面には回転モータ28が固定的に設置され、前記回転モータ28の上端には回転軸27が伝動可能に連結され、前記回転軸27の上端には支持機構70が設置され、表面処理を行う前にパラボラアンテナ24を前記支持機構70により固定し且つ前記パラボラアンテナ24の開口を上方に向かせ、
前記パラボラアンテナ24の上側には研磨機構71が設置され、前記研磨機構71は構成板50を含み、前記構成板50の下端面には柔軟性カバー21が固定的に連結され、前記柔軟性カバー21と前記構成板50との間に空気入れ空間51が形成され、前記柔軟性カバー21の下表面にはサンドペーパー22が取り外し可能に装着され、前記構成板50の上側にはエアポンプ17が設置され、前記エアポンプ17は連結管18により前記空気入れ空間51と連通しており、前記連結管18の中には逆止弁20が設置され、前記構成板50の中には空気抜きバルブ19が設置され、前記構成板50は下降すると前記サンドペーパー22を前記パラボラアンテナ24に密着させ、前記エアポンプ17は作動すると前記空気入れ空間51の中に空気を入れ、前記サンドペーパー22を前記パラボラアンテナ24にさらに密着させ、前記空気入れ空間51の中の空気が指定気圧に至ると前記エアポンプ17を止め、即ち前記サンドペーパー22を異なるサイズの前記パラボラアンテナ24の表面に密着させられ、前記回転モータ28を作動させることで前記パラボラアンテナ24が回転して研磨され、
前記主支持板10の右端面には前記切替軸29の下側に位置する下支持板32が固定的に設置され、前記下支持板32の前端面には電動レール35が固定的に設置され、前記電動レール35の前側には運動板39が装着され、前記運動板39の上端面には風吹出口33と塗料噴きつけ口38とが設置され、前記風吹出口33が前記塗料噴きつけ口38の左側に位置し、塗料を噴きつける時に前記運動板39が右方から左方へと運動する。 With reference to FIGS. 1 to 4, the surface treatment device of the receiver for the satellite signal described in the present application includes the main support plate 10, and the switching shaft 29 is rotatably installed on the right end surface of the main support plate 10. A rotary motor 28 is fixedly installed on the upper end surface of the switching shaft 29, a rotary shaft 27 is movably connected to the upper end of the rotary motor 28, and a support mechanism 70 is installed on the upper end of the rotary shaft 27. The parabolic antenna 24 is fixed by the support mechanism 70 and the opening of the parabolic antenna 24 is directed upward before the surface treatment is performed.
A polishing mechanism 71 is installed on the upper side of the parabolic antenna 24, the polishing mechanism 71 includes a constituent plate 50, and a flexibility cover 21 is fixedly connected to the lower end surface of the constituent plate 50 to form the flexibility cover. An air pump space 51 is formed between the 21 and the constituent plate 50, a sandpaper 22 is detachably attached to the lower surface of the flexible cover 21, and an air pump 17 is installed above the constituent plate 50. The air pump 17 is communicated with the air pump space 51 by a connecting pipe 18, a check valve 20 is installed in the connecting pipe 18, and an air vent valve 19 is installed in the constituent plate 50. When the constituent plate 50 descends, the sandpaper 22 is brought into close contact with the parabola antenna 24, and when the air pump 17 operates, air is introduced into the air pump space 51, and the sandpaper 22 is brought into the parabolic antenna 24. Further, when the air in the air pump space 51 reaches a designated pressure, the air pump 17 is stopped, that is, the sandpaper 22 is brought into close contact with the surface of the parabolic antenna 24 of a different size, and the rotary motor 28 is brought into close contact with the surface. By operating the parabolic antenna 24, the parabolic antenna 24 is rotated and polished.
A lower support plate 32 located below the switching shaft 29 is fixedly installed on the right end surface of the main support plate 10, and an electric rail 35 is fixedly installed on the front end surface of the lower support plate 32. An exercise plate 39 is mounted on the front side of the electric rail 35, a wind outlet 33 and a paint spray port 38 are installed on the upper end surface of the exercise plate 39, and the wind outlet 33 is the paint spray port 38. It is located on the left side of the rail, and the moving plate 39 moves from the right to the left when the paint is sprayed.

有益的には、前記下支持板32の中には前方に開口するスライド空間37が二つ設置され、二つの前記スライド空間37はそれぞれ前記電動レール35の上下側に位置し、上側にある前記スライド空間37の中には第一スライダ46が左右対称になるように且つスライド可能に設置され、下側にある前記スライド空間37の中には第二スライダ34が左右対称になるように且つスライド可能に設置され、前記第二スライダ34と前記第一スライダ46とはそれぞれスクリュー36とねじ山により連結され、前記スクリュー36が回転すると、前記第二スライダ34が互いに近寄り、前記第一スライダ46が互いに近寄り、上側にある前記スクリュー36が動力モータ44と伝動可能に連結され、上下の前記スクリュー36とはプーリ43により伝動可能に連結され、前記第一スライダ46の前端面には上定位板30が固定的に設置され、左右の前記上定位板30において対向する端面には定位センサー31が固定的に設置され、前記パラボラアンテナ24は回転して開口が下方に向いた後、前記動力モータ44が作動して左右の前記定位センサー31をそれぞれ前記パラボラアンテナ24の左右両端と当接させ、そして前記定位センサー31が前記動力モータ44を止め、前記パラボラアンテナ24の直径を計測でき、前記第二スライダ34の前端面には下定位板42が固定的に設置され、前記下定位板42の上端面には定位スイッチ41が固定的に設置され、前記運動板39の下端面にはスイッチ40が固定的に設置され、前記スイッチ40が右側にある前記定位スイッチ41と当接した後、前記風吹出口33と前記塗料噴きつけ口38とが作動し、前記スイッチ40が左側にある前記定位スイッチ41と当接した後、前記風吹出口33と前記塗料噴きつけ口38とが作動を止める。 Advantageously, two slide spaces 37 that open forward are installed in the lower support plate 32, and the two slide spaces 37 are located on the upper and lower sides of the electric rail 35, respectively, and are located on the upper side. The first slider 46 is installed so as to be symmetrical and slidable in the slide space 37, and the second slider 34 is slidably and horizontally in the slide space 37 on the lower side. The second slider 34 and the first slider 46 are connected to each other by a screw 36 and a screw thread, respectively, and when the screw 36 rotates, the second slider 34 approaches each other and the first slider 46 moves. The screws 36 on the upper side, which are close to each other, are mobilably connected to the power motor 44, and the upper and lower screws 36 are mobilably connected to the upper and lower screws 36 by a pulley 43. Is fixedly installed, the localization sensor 31 is fixedly installed on the opposite end faces of the left and right upper localization plates 30, the parabolic antenna 24 rotates and the opening faces downward, and then the power motor 44 Operates to bring the left and right localization sensors 31 into contact with the left and right ends of the parabola antenna 24, respectively, and the localization sensor 31 can stop the power motor 44 and measure the diameter of the parabola antenna 24. A lower localization plate 42 is fixedly installed on the front end surface of the slider 34, a localization switch 41 is fixedly installed on the upper end surface of the lower localization plate 42, and a switch 40 is fixedly installed on the lower end surface of the exercise plate 39. After the switch 40 is fixedly installed and comes into contact with the localization switch 41 on the right side, the wind outlet 33 and the paint spray port 38 operate, and the localization switch 41 on which the switch 40 is on the left side operates. The wind outlet 33 and the paint spraying port 38 stop the operation after the contact with the air outlet 33.

有益的には、前記主支持板10の右端面には右方に開口する案内スライド溝12が形成され、前記案内スライド溝12の底壁には旋転モータ11が固定的に設置され、前記旋転モータ11の上側には親ねじ13が伝動可能に連結され、前記案内スライド溝12の中には案内スライダ14がスライド可能に設置され、前記案内スライダ14が前記親ねじ13とねじ山により連結され、前記案内スライダ14の右端面には装着板15が固定的に設置され、前記構成板50は連結棒16により前記装着板15の下端面と固定的に連結され、前記エアポンプ17が前記装着板15の下端面に固定的に設置されている。 Advantageously, a guide slide groove 12 that opens to the right is formed on the right end surface of the main support plate 10, and a rotation motor 11 is fixedly installed on the bottom wall of the guide slide groove 12, and the rotation is performed. A lead screw 13 is movably connected to the upper side of the motor 11, a guide slider 14 is slidably installed in the guide slide groove 12, and the guide slider 14 is connected to the lead screw 13 by a screw thread. A mounting plate 15 is fixedly installed on the right end surface of the guide slider 14, the constituent plate 50 is fixedly connected to the lower end surface of the mounting plate 15 by a connecting rod 16, and the air pump 17 is fixedly connected to the mounting plate. It is fixedly installed on the lower end surface of 15.

有益的には、前記支持機構70は前記回転軸27の上端に固定的に設置された旋転板26を含み、前記旋転板26の上端面には載置板25が固定的に設置され、前記載置板25の中には一つの割れ目があり、割れ目から前記パラボラアンテナ24を入れられ、割れ目の中には電磁石23が設置され、前記パラボラアンテナ24は開口が上方に向くように割れ目の中に置かれ、前記電磁石23が通電して前記パラボラアンテナ24を吸引することで前記パラボラアンテナ24を固定できる。 Advantageously, the support mechanism 70 includes a rotating plate 26 fixedly installed at the upper end of the rotating shaft 27, and a mounting plate 25 is fixedly installed on the upper end surface of the rotating plate 26. There is one crack in the description plate 25, the parabolic antenna 24 is inserted from the crack, an electromagnet 23 is installed in the crack, and the parabolic antenna 24 is inside the crack so that the opening faces upward. The parabolic antenna 24 can be fixed by energizing the electromagnet 23 and attracting the parabolic antenna 24.

有益的には、前記主支持板10の中には切替モータ45が固定的に設置され、前記切替軸29と前記切替モータ45とが伝動可能に連結されている。 Advantageously, the switching motor 45 is fixedly installed in the main support plate 10, and the switching shaft 29 and the switching motor 45 are movably connected to each other.

本願発明の作動手順は以下の通りである。 The operating procedure of the present invention is as follows.

1、初期状態において、載置板25が切替軸29の上側に位置している。
2、パラボラアンテナ24の開口を上方に向かせたままパラボラアンテナ24を載置板25の割れ目の中に置き、電磁石23に通電することでパラボラアンテナ24を吸引して固定する。
3、旋転モータ11を作動させることで親ねじ13を回転させ、案内スライダ14が装着板15を下降させ、そして連結棒16により構成板50を下降させ、構成板50の下降でサンドペーパー22がパラボラアンテナ24の表面に密着する。
4、エアポンプ17が作動して連結管18により空気入れ空間51の中に空気を入れ、サンドペーパー22をパラボラアンテナ24の表面に完全に密着させ、空気入れ空間51の中の空気が指定気圧に至るとエアポンプ17を止める。
5、回転モータ28が作動して回転軸27により旋転板26を回転させ、そして載置板25にパラボラアンテナ24を回転させ、サンドペーパー22によりパラボラアンテナ24に研磨を行って錆を落とす。
6、研磨が終わると、旋転モータ11が作動して装着板15を上昇させて復帰させ、空気抜きバルブ19が作動して空気入れ空間51の中の空気を抜く。
7、切替モータ45が作動して切替軸29を百八十度回転させ、パラボラアンテナ24の開口を下方に向かせる。
8、動力モータ44が作動してプーリ43の伝動により上下のスクリュー36を回転させ、左右の第一スライダ46が互いに近寄り、定位センサー31がパラボラアンテナ24の両端と当接した後、動力モータ44を止め、そしてパラボラアンテナ24の直径を計測する。
9、ここで下定位板42がすでに対応位置まで辿り、電動レール35が作動して運動板39を左方へ運動させ、スイッチ40が右側にある定位スイッチ41と当接した後、風吹出口33と塗料噴きつけ口38とが作動する。
10、風吹出口33はパラボラアンテナ24の表面から落とされた錆をパラボラアンテナ24の表面から吹き飛ばし、塗料噴きつけ口38は塗料をパラボラアンテナ24の表面に噴きつけ、スイッチ40が左側にある定位スイッチ41と当接した後、風吹出口33と塗料噴きつけ口38とが作動を止める。
11、動力モータ44が作動し、電動レール35が作動して上定位板30と、下定位板42と、運動板39とを復帰させ、切替モータ45が作動してパラボラアンテナ24を回転させて開口を上方に向かせ、電磁石23を停電させ、この時にパラボラアンテナ24を取り出せば良い。 1. In the initial state, the mounting plate 25 is located above the switching shaft 29.
2. The parabolic antenna 24 is placed in the crack of the mounting plate 25 with the opening of the parabolic antenna 24 facing upward, and the parabolic antenna 24 is attracted and fixed by energizing the electromagnet 23.
3. The lead screw 13 is rotated by operating the rotation motor 11, the guide slider 14 lowers the mounting plate 15, and the connecting rod 16 lowers the constituent plate 50, and the lowering of the constituent plate 50 causes the sandpaper 22 to move down. It adheres to the surface of the parabolic antenna 24.
4. The air pump 17 operates to inject air into the air pump space 51 by the connecting pipe 18, the sandpaper 22 is completely brought into close contact with the surface of the parabolic antenna 24, and the air in the air pump space 51 reaches the specified atmospheric pressure. When it reaches, the air pump 17 is stopped.
5. The rotary motor 28 operates to rotate the rotating plate 26 by the rotating shaft 27, and the parabolic antenna 24 is rotated on the mounting plate 25, and the parabolic antenna 24 is polished by sandpaper 22 to remove rust.
6. When the polishing is completed, the rotation motor 11 operates to raise and return the mounting plate 15, and the air bleeding valve 19 operates to bleed the air in the inflator space 51.
7. The switching motor 45 operates to rotate the switching shaft 29 by 180 degrees, and the opening of the parabolic antenna 24 is directed downward.
8. The power motor 44 operates to rotate the upper and lower screws 36 by the transmission of the pulley 43, the left and right first sliders 46 approach each other, the localization sensor 31 comes into contact with both ends of the parabolic antenna 24, and then the power motor 44. And measure the diameter of the parabolic antenna 24.
9. Here, the lower localization plate 42 has already reached the corresponding position, the electric rail 35 operates to move the movement plate 39 to the left, and after the switch 40 comes into contact with the localization switch 41 on the right side, the wind outlet 33 And the paint spray port 38 operate.
10. The wind outlet 33 blows the rust dropped from the surface of the parabolic antenna 24 from the surface of the parabolic antenna 24, the paint spray port 38 sprays the paint on the surface of the parabolic antenna 24, and the switch 40 is a localization switch on the left side. After coming into contact with 41, the wind outlet 33 and the paint spray port 38 stop operating.
11. The power motor 44 operates, the electric rail 35 operates to restore the upper localization plate 30, the lower localization plate 42, and the motion plate 39, and the switching motor 45 operates to rotate the parabolic antenna 24. The opening may be directed upward, the electromagnet 23 may be cut off, and the parabolic antenna 24 may be taken out at this time.

以上の方式により、当該分野の従業員は本願発明の範囲内で作業状況に応じて様々な改変を加えることができる。 According to the above method, the employee in the field can make various modifications according to the working situation within the scope of the present invention.

Claims (5)

主支持板を含み、前記主支持板の右端面には切替軸が回転可能に設置され、前記切替軸の上端面には回転モータが固定的に設置され、前記回転モータの上端には回転軸が伝動可能に連結され、前記回転軸の上端には支持機構が設置され、表面処理を行う前にパラボラアンテナを前記支持機構により固定し且つ前記パラボラアンテナの開口を上方に向かせ、
前記パラボラアンテナの上側には研磨機構が設置され、前記研磨機構は構成板を含み、前記構成板の下端面には柔軟性カバーが固定的に連結され、前記柔軟性カバーと前記構成板との間に空気入れ空間が形成され、前記柔軟性カバーの下表面にはサンドペーパーが取り外し可能に装着され、前記構成板の上側にはエアポンプが設置され、前記エアポンプは連結管により前記空気入れ空間と連通しており、前記連結管の中には逆止弁が設置され、前記構成板の中には空気抜きバルブが設置され、前記構成板は下降すると前記サンドペーパーを前記パラボラアンテナに密着させ、前記エアポンプは作動すると前記空気入れ空間の中に空気を入れ、前記サンドペーパーを前記パラボラアンテナにさらに密着させ、前記空気入れ空間の中の空気が指定気圧に至ると前記エアポンプを止め、即ち前記サンドペーパーを異なるサイズの前記パラボラアンテナの表面に密着させられ、前記回転モータを作動させることで前記パラボラアンテナが回転して研磨され、
前記主支持板の右端面には前記切替軸の下側に位置する下支持板が固定的に設置され、前記下支持板の前端面には電動レールが固定的に設置され、前記電動レールの前側には運動板が装着され、前記運動板の上端面には風吹出口と塗料噴きつけ口とが設置され、前記風吹出口が前記塗料噴きつけ口の左側に位置し、塗料を噴きつける時に前記運動板が右方から左方へと運動することを特徴とする衛星信号に対する受信機の表面処理装置。 A switching shaft is rotatably installed on the right end surface of the main support plate including the main support plate, a rotary motor is fixedly installed on the upper end surface of the switching shaft, and a rotary shaft is fixedly installed on the upper end surface of the rotary motor. A support mechanism is installed at the upper end of the rotating shaft so that the parabolic antenna is fixed by the support mechanism and the opening of the parabolic antenna is directed upward before surface treatment is performed.
A polishing mechanism is installed on the upper side of the parabolic antenna, the polishing mechanism includes a constituent plate, and a flexible cover is fixedly connected to the lower end surface of the constituent plate, and the flexible cover and the constituent plate are connected to each other. An air pump space is formed between them, sandpaper is detachably attached to the lower surface of the flexible cover, an air pump is installed on the upper side of the constituent plate, and the air pump is connected to the air pump space by a connecting pipe. A check valve is installed in the connecting pipe, an air pump valve is installed in the constituent plate, and when the constituent plate is lowered, the sandpaper is brought into close contact with the parabolic antenna. When the air pump operates, air is introduced into the inflator space, the sandpaper is further brought into close contact with the parabolic antenna, and when the air in the inflator space reaches a specified pressure, the air pump is stopped, that is, the sandpaper. Is brought into close contact with the surface of the parabola antenna of different sizes, and by operating the rotary motor, the parabola antenna is rotated and polished.
A lower support plate located below the switching shaft is fixedly installed on the right end surface of the main support plate, and an electric rail is fixedly installed on the front end surface of the lower support plate of the electric rail. An exercise plate is attached to the front side, and a wind outlet and a paint spray port are installed on the upper end surface of the exercise plate. The wind outlet is located on the left side of the paint spray port, and when the paint is sprayed, the wind outlet is located. A surface treatment device for a receiver for satellite signals, characterized in that the moving plate moves from right to left. 前記下支持板の中には前方に開口するスライド空間が二つ設置され、二つの前記スライド空間はそれぞれ前記電動レールの上下側に位置し、上側にある前記スライド空間の中には第一スライダが左右対称になるように且つスライド可能に設置され、下側にある前記スライド空間の中には第二スライダが左右対称になるように且つスライド可能に設置され、前記第二スライダと前記第一スライダとはそれぞれスクリューとねじ山により連結され、前記スクリューが回転すると、前記第二スライダが互いに近寄り、前記第一スライダが互いに近寄り、上側にある前記スクリューが動力モータと伝動可能に連結され、上下の前記スクリューとはプーリにより伝動可能に連結され、前記第一スライダの前端面には上定位板が固定的に設置され、左右の前記上定位板において対向する端面には定位センサーが固定的に設置され、前記パラボラアンテナは回転して開口が下方に向いた後、前記動力モータが作動して左右の前記定位センサーをそれぞれ前記パラボラアンテナの左右両端と当接させ、そして前記定位センサーが前記動力モータを止め、前記パラボラアンテナの直径を計測でき、前記第二スライダの前端面には下定位板が固定的に設置され、前記下定位板の上端面には定位スイッチが固定的に設置され、前記運動板の下端面にはスイッチが固定的に設置され、前記スイッチが右側にある前記定位スイッチと当接した後、前記風吹出口と前記塗料噴きつけ口とが作動し、前記スイッチが左側にある前記定位スイッチと当接した後、前記風吹出口と前記塗料噴きつけ口とが作動を止めることを特徴とする請求項1に記載の衛星信号に対する受信機の表面処理装置。 Two slide spaces that open forward are installed in the lower support plate, the two slide spaces are located on the upper and lower sides of the electric rail, and the first slider is in the slide space on the upper side. Are installed so as to be symmetrical and slidable, and the second slider is installed so as to be symmetrical and slidable in the lower slide space, and the second slider and the first are installed. The slider is connected by a screw and a screw thread, respectively, and when the screw rotates, the second slider approaches each other, the first slider approaches each other, and the screw on the upper side is movably connected to the power motor to move up and down. The upper localization plate is fixedly installed on the front end surface of the first slider, and the localization sensor is fixedly installed on the opposite end faces of the left and right upper localization plates. After the parabola antenna is installed and the opening is directed downward, the power motor is activated to bring the left and right localization sensors into contact with the left and right ends of the parabola antenna, respectively, and the localization sensor is used for the power. The motor can be stopped and the diameter of the parabolic antenna can be measured. A lower localization plate is fixedly installed on the front end surface of the second slider, and a localization switch is fixedly installed on the upper end surface of the lower localization plate. A switch is fixedly installed on the lower end surface of the moving plate, and after the switch comes into contact with the localization switch on the right side, the wind outlet and the paint spray port operate, and the switch moves to the left side. The surface treatment device for a receiver for a satellite signal according to claim 1, wherein the wind outlet and the paint spray port stop operating after contacting with the localization switch. 前記主支持板の右端面には右方に開口する案内スライド溝が形成され、前記案内スライド溝の底壁には旋転モータが固定的に設置され、前記旋転モータの上側には親ねじが伝動可能に連結され、前記案内スライド溝の中には案内スライダがスライド可能に設置され、前記案内スライダが前記親ねじとねじ山により連結され、前記案内スライダの右端面には装着板が固定的に設置され、前記構成板は連結棒により前記装着板の下端面と固定的に連結され、前記エアポンプが前記装着板の下端面に固定的に設置されていることを特徴とする請求項1に記載の衛星信号に対する受信機の表面処理装置。 A guide slide groove that opens to the right is formed on the right end surface of the main support plate, a rotation motor is fixedly installed on the bottom wall of the guide slide groove, and a lead screw is transmitted on the upper side of the rotation motor. The guide slider is slidably installed in the guide slide groove, the guide slider is connected by the lead screw and the screw thread, and the mounting plate is fixed to the right end surface of the guide slider. The first aspect of claim 1, wherein the constituent plate is fixedly connected to the lower end surface of the mounting plate by a connecting rod, and the air pump is fixedly installed on the lower end surface of the mounting plate. Surface treatment device for receivers for satellite signals. 前記支持機構は前記回転軸の上端に固定的に設置された旋転板を含み、前記旋転板の上端面には載置板が固定的に設置され、前記載置板の中には一つの割れ目があり、割れ目から前記パラボラアンテナを入れられ、割れ目の中には電磁石が設置され、前記パラボラアンテナは開口が上方に向くように割れ目の中に置かれ、前記電磁石が通電して前記パラボラアンテナを吸引することで前記パラボラアンテナを固定できることを特徴とする請求項1に記載の衛星信号に対する受信機の表面処理装置。 The support mechanism includes a rotating plate fixedly installed at the upper end of the rotating shaft, a mounting plate is fixedly installed on the upper end surface of the rotating plate, and one crack is contained in the above-mentioned mounting plate. The parabolic antenna is inserted through the crack, an electric magnet is installed in the crack, the parabolic antenna is placed in the crack so that the opening faces upward, and the electric magnet is energized to press the parabolic antenna. The surface treatment device for a receiver for a satellite signal according to claim 1, wherein the parabolic antenna can be fixed by suction. 前記主支持板の中には切替モータが固定的に設置され、前記切替軸と前記切替モータとが伝動可能に連結されていることを特徴とする請求項1に記載の衛星信号に対する受信機の表面処理装置。 The receiver for a satellite signal according to claim 1, wherein a switching motor is fixedly installed in the main support plate, and the switching shaft and the switching motor are movably connected to each other. Surface treatment equipment.
JP2020030997A 2019-11-08 2020-02-26 Surface treatment device for receivers for satellite signals Expired - Fee Related JP6786031B1 (en)

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